Research Paper | Chemistry | India | Volume 5 Issue 7, July 2016
Study of SEM/EDXS and FTIR for Fly Ash to Determine the Chemical Changes of Ash in Marine Environment
Abstract: In this paper, the chemical changes and impact of fly ash in contact with sea water in the earlier dumpsite near Tuticorin thermal power plant was characterized by SEM/EDXS and FTIR. The morphology and elemental composition of fly ash were characterized SEM/EDXS and functional group analysis was studied by FTIR spectrum. The chemical changes of ash in earlier dumpsite was determined by comparing with fresh ash taken from power plant and with sediment taken from 2 km away from dumpsite. The morphology of SEM showed fly ash has spherical particles and in ash from dump site few spherical balls were seen and confirmed the contamination of fly ash. The results of EDXS showed that all the three ash samples predominantly contributed the elements of oxygen, aluminium, silicon and low content of iron, calcium, and potassium in fly ash, iron, calcium, potassium, chloride in bottom ash and iron, calcium, potassium, chloride, and magnesium in ash from dump site. Calcium content in fresh fly ash showed less than 10 %. FTIR spectra for all sediment samples showed peaks associated with quartz, feldspar, Montmorillonite, organic matter and nitrate. The present study revealed that the chemical changes occurred in ash in marine environment and thereby altered the quality of sea water.
Keywords: Sea water, Thermal power plant, SEM/EDXS, FTIR, fly ash
Edition: Volume 5 Issue 7, July 2016,
Pages: 1688 - 1693
How to Cite this Article?
Clara Jeyageetha.J, Sugirtha P. Kumar, "Study of SEM/EDXS and FTIR for Fly Ash to Determine the Chemical Changes of Ash in Marine Environment", International Journal of Science and Research (IJSR), Volume 5 Issue 7, July 2016, pp. 1688-1693, https://www.ijsr.net/get_abstract.php?paper_id=ART2016554
How to Share this Article?
Similar Articles with Keyword 'Sea water'
Optimization of Metalloprotease Enzyme Extracted from Marine B.thuringiensis Strain 1257 Metabolism
Maha AL Rahhal | Joumaa Merza
Treatment of Hardness and Heavy Metals from Red Sea by using Zeolites
Khadija Saeid Rushwan | Salah Murghani